Description: AcrAB is a drug efflux protein with a broad substrate specificity. It can confer resistant to ampicillin, chloramphenicol as well. It requires TolC outer memberane protein to function and form the AcrAB-TolC efflux operon. AcrAB-TolC is a drug efflux protein complex with broad substrate specificity that uses the proton motive force to export substrates.

Description: AcrAB is a drug efflux protein with a broad substrate specificity. It can confer resistant to ampicillin, chloramphenicol as well.It requires TolC outer memberane protein to function and form the AcrAB-TolC efflux operon. AcrAB-TolC is a drug efflux protein complex with broad substrate specificity that uses the proton motive force to export substrates.

Description: Resistance-nodulation-cell division efflux system AdeDE in Acinetobacter. AdeDE increases the host resistance to ceftazidime and rifampicin. The outer-membrane protein (OMP) for AdeDE has not been identified yet (Oct 2013).

Description: Putative RND family drug transporter AdeF; Part of AdeFGH efflux system. Confers resistance to antibiotics such as tetracyclines, chloramphenicol, fluoroquinolones, trimethoprim and other antibacterial biocides such as dyes, anionic detergents.

Description: Putative RND family drug transporter AdeH; Part of AdeFGH efflux system. Confers resistance to antibiotics such as tetracyclines, chloramphenicol, fluoroquinolones, trimethoprim and other antibacterial biocides such as dyes, anionic detergents.

Description: Involved in the efflux of toxic and relatively hydrophobic compounds. Influences survival inside the host. Probably part of a tripartite efflux pump, which is composed of an outer membrane efflux protein, an inner membrane protein and a protein that expands the periplasmic space. It can form a tripartite pump with BepD and BepE or with BepF and BepG.

Description: Part of a multidrug efflux pump. Confers resistance to cationic lipophilic dyes such as ethidium bromide, Acriflavine, pyronin Y and safranin O. The efflux is probably coupled to an influx of proton

Description: Part of a multidrug efflux pump. Confers resistance to cationic lipophilic dyes such as ethidium bromide, Acriflavine, pyronin Y and safranin O. The efflux is probably coupled to an influx of protons

Description: Multidrug transporter MdfA, Efflux pump driven by the proton motive force. Confers resistance to a broad spectrum of chemically unrelated drugs. Confers resistance to a diverse group of cationic or zwitterionic lipophilic compounds such as ethidium bromide, tetraphenylphosphonium, rhodamine, daunomycin, benzylkonium, rifampicin, tetracycline, puromycin, and to chemically unrelated, clinically important antibiotics such as chloramphenicol, erythromycin, and certain aminoglycosides and fluoroquinolones. OverExpression results in isopropyl-beta-D-thiogalactopyranoside (IPTG) exclusion and spectinomycin sensitivity. Transport of neutral substrates is electrogenic, whereas transport of cationic substrates is electroneutral. In addition to its role in multidrug resistance, confers extreme alkaline pH resistance, allowing the growth under conditions that are close to those used normally by alkaliphiles. This activity requires Na+ or K+; also known as Chloramphenicol resistance pump Cmr

Description: Multidrug resistance protein MdtN; Involved in resistance to puromycin, acriflavine and tetraphenylarsonium chloride; Could be part of a tripartite efflux system composed of MdtN, MdtO and MdtP

Description: RND family multidrug efflux permease oqxB; part of the oqxAB efflux system; can co-select antibiotics such as Chloramphenicol, Ciprofloxacin, nofloxacin, trimethoprim etc. oqxAB efflux system is dependent on the host TolC outer membrane protein when expressed in E. coli.

Description: Antiseptic resistnce gene qacA; Confers export-mediated resistance against antiseptic and disinfectant compounds such as intercalating dyes, quaternary ammonium salts and diamidines. qacA and qacB are different in sequence similarities by just by 7 nucleotides.

Description: S-adenosyl-L-methionine dependent methyltransferase tehB that catalyzes the methylation of tellurite and is responsible for tellurite resistance when present in high copy number. Can also methylate selenite and selenium dioxide. Is thus able to detoxify different chalcogens. Can not methylate arsenic compounds

Description: Outer membrane protein. pcm and tolCsm genes form an operon. A significant feature of TolCsm different from that of other tolC homologues of Enterobacteriaceae is that tolCsm is not transcribed alone, but is transcribed with the pcm gene.

Description: VmeCD uses a outer memberane protein such as TolC in E. coli or TolC-like VpoC in V. parahaemolyticus to function properly but complexes with VpoC can extrude various antimicrobial agents more effectively than complexes with TolC.

Description: VmeCD uses a outer memberane protein such as TolC in E. coli or TolC-like VpoC in V. parahaemolyticus to function properly but complexes with VpoC can extrude various antimicrobial agents more effectively than complexes with TolC.

Description: VmeEF uses a outer memberane protein such as TolC in E. coli or TolC-like VpoC in V. parahaemolyticus to function properly but complexes with VpoC can extrude various antimicrobial agents more effectively than complexes with TolC.

Description: VmeEF uses a outer memberane protein such as TolC in E. coli or TolC-like VpoC in V. parahaemolyticus to function properly but complexes with VpoC can extrude various antimicrobial agents more effectively than complexes with TolC.